SU1082773A1 - Apparatus for purifying effluents - Google Patents

Abstract

EQUIPMENT FOR CLEANING WASTE WATER, containing a vertical rectangular case with a bottom of inclined plates, a mixer on a driven shaft, a conical sludge collection chamber installed under the bottom, inclined settling partitions, placed by the Rus along the hull of the case opposite each other and doing it on the sedimenting walls chambers, inlet and outlet nozzles for polluted and purified water, that is, that with the aim of improving purification by providing a recycle of suspended matter, it is equipped with precipitation shaped elements, installed vertically along the axis of the body, connected by their upper tords with lower tords of inclined settling partitions, distributed between partitions installed parallel under the inclined partitions and forming distribution channels, rotary valves hinged to the lower ends of distribution partitions, liquid distributors placed in distribution channels, cylindrical cone installed along the axis of the housing in its upper part, prefabricated a torus located in the upper part of the cylindrical cone, distribution pipelines connecting the collecting manifold to the liquid distributors, a circulation pipe connecting the input pipe of contaminated water to the lower part of the conical shell and passing through the sludge collection chamber, vertical plates parallel to the side walls of the case, attached by their lower ends to the upper ends of the inclined partitions and forming vertical overflow channels, connecting The upper part of the body with the precipitation chambers, and the circulation pipe connecting the lower part of the sludge collection chamber with the inlet of the circulation pipe, at the same time opposite settling partitions with profiled precipitating elements form between themselves vertical channels connecting the hull yourself, and the mixer. installed in cylindrical shell.

Description

1 The invention relates to a device for cleaning industrial wastewater and can be used to treat electroplating and wastewater of non-ferrous metallurgy enterprises, especially when used as coagulant iron hydroxide. A device for sewage treatment is known, comprising a vertical body with inclined plates forming the bottom, and inclined partitions, placed by Rus along the height of body m. The disadvantage of this device is the low quality of cleaning from fine mists. It is also known a device for wastewater treatment, containing a chassis with inclined plates forming the bottom, a stirrer, a drive, a shaft placed along the axis of the body and a connecting drive with a mixer conical sludge collecting chamber, inclined settling walls one opposite the other, and the inlets and outflow of contaminated and treated water l. A disadvantage of the known device is the poor quality of the cleaning / due to the absence of recycling of the suspensions. The purpose of the invention is to improve the quality of cleaning by ensuring the circulation of suspensions. This goal is achieved by the fact that a device comprising a vertical rectangular case with a bottom of inclined plates, a mixer on a driven shaft, a conical sludge collection chamber installed under the bottom, inclined settling walls placed by the two of the height of the body opposite one another and dividing it on precipitation chambers, inlet and outlet nozzles for polluted and purified water, equipped with sedimentary shaped elements, installed vertically along the axis of the body, connected to the top by their ends the lower ends of the settling walls, adjacent of which are located with one another overlapping, distribution walls, installed in parallel under the inclined drainage walls and forming distribution channels, rotary; with valves hingedly attached 73 To the lower ends of the distribution partitions, fluid distributors placed in distribution channels, cylindrical cone, installed on the axis of the housing in its upper part, with a collector collector located in The inner part of the cylindrical shell, the distribution pipelines connecting the collecting manifold to the liquid distributors, the circulation pipe connecting the inlet pipe of contaminated water to the lower part of the cylindrical shell and passing through the conical sludge collection chamber parallel to the side walls enclosures, fixed with their lower ends on the upper ends of inclined precipitation walls and forming vertical downstream channels connecting the upper part of the hull with the precipitation chambers, and the circulation pipe connecting the lower part of the sludge collection chamber with the inlet of the circulation pipe, and the opposite settling partitions with profiled elements form between them vertical channels that connect successively along the height of the hull the precipitation chambers among themselves, and the mixer is located in a cylindrical shell. FIG. 1 shows the proposed device, a longitudinal section} on 4 1g. 2 - inclined precipitation walls, distribution walls, installed in parallel under the pressure walls, and forming distribution channels, a distribution pipe and a liquid distributor, placed in a distribution channel. The device comprises a vertical rectangular case 1 with an inclined bottom 2, a stirrer 3, a drive 4, a shaft 5 placed along the axis of the case 1 and connecting the drive 4 with the stirrer 3, and a conical sludge collecting chamber 6 mounted in the lower part of the case 1 and connected with the bottom 2. According to the height of the housing 1, the oblique precipitating partitions 7 are placed with dyes, dividing the housing into the precipitation chambers 8. To improve the recirculation of suspensions, the device is equipped with 3 precipitation elements 9, the installation 1 and its vertical ends with On them, the ends of the precipitation partition 7, the adjacent ones of which are located with overlapping one another. Distributive spans 10 are formed under inclined settling walls 7 forming distributing channels 11. To adjust the hydrodynamics of water movement, the device is equipped with rotary shutters 12 pivotally attached to the ends of the distributing partitions 10. The distributors 13 are placed in the distribution channels 11. In the upper part of the housing 1, a cylinder-cone shell 14 is installed along its axis with a collecting collector 15 located in its upper part. Distribution pipes 16 connect a collection manifold 15 to liquid distributors 13. The device is also equipped with a circulation pipe 17, a connecting nozzle 18 for the introduction of contaminated water with the lower part of the cylindrical conical shell and passing through the conical sludge collection chamber 6. Vertical plates 19, arranged parallel to the side walls of the housing 1, are fixed to the bottom. They have their ends on the upper ends of the inclined x 7 shafts 7 and form vertical downflow channels 20 connecting the downstream part of the housing 1 with the settling chamber 8. The device is also equipped with a circulation pipe 21 connecting the bottom of the sediment collecting chamber 6 to the circulating inlet 17. The opposite precipitation walls 7 with precipitating elements form between themselves vertical channels 22, successively connecting the height of the body 1 of the settling chambers 8 to each other. The mixer 3 is located in the cylindrical shell 1.4. The device is equipped with a pump 23. The device operates in a speedy manner. The contaminated water is pumped through the pipe 18 through the pipe 18 into the circulation pipe 17, from where the water enters the cylindrical cone 14. In the shell 14 the wastewater is disposed of, for which 73 coagulants are introduced and, if necessary, the active reaction of the water is corrected reagents. The coagulant and the reagents are mixed with water by the stirrer 3. After the deactivation reaction, the water with the coagulant and suspensions formed during the reaction through the collecting manifold 15, the distribution pipes 16 and the liquid distributors 13 enter the precipitation chambers 8. From the precipitation chambers 8 is clarified water flows through the vertical overflow channels 20 into the upper part of the body and out of it through the nozzle 24. Coagulum along the vertical channels 22 rapidly moves to the lower part of the sludge collection chamber. From the coagulum sludge collection chamber 6, through the circulation pipe 21, the pump 23 is recycled to the circulation pipe 17 and the cylindrical cone 14. After the coagulum is triggered, it is removed from the device through the nozzle. Thus, in the proposed device, due to the application of the coagulum recirculation principle, the latter can be dispensed in discrete portions in large quantities based on a significant mass of water to be disinfected. Due to the recirculation of a large mass of coagulant, the contact coagulation of suspensions is improved and the wastewater treatment reactions are intensified, which leads to a 3–3 fold increase in the quality of cleaning. At the same time, the quality of cleaning up to 0.5 mg / l for all heavy metal ions is achieved, which makes it possible to satisfy the required standards for the maximum permissible concentrations in the water of reservoirs of sanitary and domestic water use, as a result of which there is no need to use onerous ion-exchange cleaning technologies. Drains In addition, due to the presence of vertical channels, the coagulum recirculation from the precipitation chambers, including the upper chambers, is sharply intensified. This makes it possible to place the precipitation chambers with the Rusas one above the other, as a result of which the production areas required to accommodate the device are reduced by a factor of 2-3. VX 5J

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Claims (1)

DEVICE FOR WASTE WATER TREATMENT, comprising a vertical rectangular casing with a bottom made of inclined plates, an agitator on a shaft with a drive, a conical sludge collection chamber installed under the bottom, inclined sedimentation partitions, placed in tiers along the height of the casing one opposite to the other and dividing it into precipitation chambers, branch pipes for the input and output of contaminated and purified water, which is characterized in that, in order to improve cleaning by ensuring the recirculation of suspensions, it is equipped with precipitating profiled elements that are installed vertically aligned along the axis of the casing, connected by their upper ends to the lower ends of the inclined precipitation partitions, distribution partitions installed in parallel under the inclined partitions and forming the distribution channels, rotary dampers charmingly attached to the lower ends of the distribution partitions, liquid distributors placed in the distribution channels , a cylindrical conical shell mounted along the axis of the housing in its upper part, with a prefabricated collector, located in the upper part of the cylinder-conical shell, distribution pipelines connecting the collecting manifold to the liquid distributors _β , a circulation pipe, in the connecting pipe for the input of contaminated water to the lower part of the cylinder-conical shell and passing through the sediment collection chamber, with vertical plates parallel to the side walls of the casing attached by their lower ends to the upper ends of the inclined partitions and forming vertical transfer channels connecting the upper part to casing with precipitation chambers, and a circulation pipe that communicates the lower part of the sediment collection chamber with the inlet of the circulation pipe, while the opposite precipitation partitions with profiled precipitation elements form vertical channels between themselves, sequentially connecting the precipitation chambers to each other, and the mixer. installed in a cylindrical conical shell. SU _ <„> 1082773